Proteins in the corona that are conserved and unique across the nanoparticle types were identified and classified according to the protein functional properties. Remarkably, both size and surface properties were
1. In top-down synthesis, nanoparticles are produced by size reduction using physical and chemical treatments, which may introduce imperfections in the surface structure of the product. However, this is a major limitation because the surface chemistry and the other physical properties of nanoparticles...
industry, and federal research institutions. Monitoring the size distribution of nanoparticles is an important requirement for process control, for evaluating the efficacy of the drug delivery strategy, and for ascertaining the potential for dangerous, possibly fatal, immunogenic res...
Overall, PS-NP mobility in soil can vary widely, depending on PNP properties such as size and surface chemistry, and on matrix properties, such as the type of porous medium and its composition. These findings suggest that knowledge of inherent characteristics (size, surface charge, surface ...
Many properties of nanoparticles are governed by their shape, size, polydispersity and surface chemistry. To apply nanoparticles in chemical sensing, medical diagnostics, catalysis, thermoelectrics, photovoltaics or pharmaceutics, they have to be synthesized with precisely controlled characteristics. This is ...
“meta-grid”, should be inserted on top of a conventional LED chip within its usual encapsulating packaging. As described by the theory, the nanoparticle composition, size, interparticle spacing, and distance from the LED-chip surface can be tailored to facilitate maximal transmission of light ...
Graphene-based nanomaterials have attracted remarkable attention during the last decade in nanotechnology. In this review, we discuss the hybrid nanomaterials based on graphene oxide (GO) and nanoparticles (NPs). We review the synthesis, properties, and applications of immobilized transition metal oxide...
These are collective excitations of electrons at the surface of a metal that very strongly interact with light. This light-matter interaction is strongest at the plasmon-resonance frequency, which is defined by the size and shape of an object and its charge density. Applications such as sensing,...
particles in bulk first adhered to the bubble surface and moved to the three-phase contact line by interfacial flow. It is also suggested that the amount of the particles accumulated on the surface is not proportional to the bubble volume (bubble radius to the third power) but proportional to...
It is caused by a change of the band structure or, more precisely, by a broadening of the discrete eigenstates of the holes and quasi-free electrons, which are determined by the particle surface [176,180]. The size-dependent mechanisms that contribute significantly to a shortening of T2 and...